Scientific article
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English

Phase-Coherent Dynamics of Quantum Devices with Local Interactions

Published inEntropy, vol. 22, no. 8, 847
Publication date2020
Abstract

This review illustrates how Local Fermi Liquid (LFL) theories describe the strongly correlated and coherent low-energy dynamics of quantum dot devices. This approach consists in an effective elastic scattering theory, accounting exactly for strong correlations. Here, we focus on the mesoscopic capacitor and recent experiments achieving a Coulomb-induced quantum state transfer. Extending to out-of-equilibrium regimes, aimed at triggered single electron emission, we illustrate how inelastic effects become crucial, requiring approaches beyond LFLs, shedding new light on past experimental data by showing clear interaction effects in the dynamics of mesoscopic capacitors.

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Citation (ISO format)
FILIPPONE, Michele et al. Phase-Coherent Dynamics of Quantum Devices with Local Interactions. In: Entropy, 2020, vol. 22, n° 8, p. 847. doi: 10.3390/e22080847
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accessLevelPublic
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Journal ISSN1099-4300
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Creation04/01/2021 14:48:00
First validation04/01/2021 14:48:00
Update time15/03/2023 23:49:45
Status update15/03/2023 23:49:45
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